An Ultrasonic Tomography Flowmeter Implementation for Gas/Liquid Two-Phase Flow Measurement

2021 Iranian International Conference on Microelectronics (IICM) Pub Date : 2021-12-22 DOI:10.1109/IICM55040.2021.9730131

Omid Qorbani, E. N. Aghdam

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Abstract

Today's ultrasonic flow metering is very important in the industry. By using ultrasound tomography, we can be obtained cross-sectional images from inside a tube that contains two-phase fluid. By processing these images, the flow of each phase can be calculated separately. Time of flight ultrasonic tomography was used in the proposed method and does not be used conventional methods for image reconstruction. The flow rate of each phase is obtained directly from the sensitivity matrix. The proposed method is independent of flow pattern identification and then there is no need to calibration and as a result, the system is stable. One MHz piezoelectric was used to implement the proposed method and 16 piezoelectric was mounted to implement for a fan-shaped ring, also a four-channel AFE board with a sampling speed of 105 MHz and a 14-bit resolution was used. All control signals are generated by FPGA and there is no need for a microprocessor to control the process. A very simple power amplifier is used to drive the piezoelectric which has low power consumption and contributes to the stability of the system. The simulation results of the measured values show a low error of the SIE factor.

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一种用于气/液两相流量测量的超声层析流量计实现

当今的超声波流量计量在工业中占有十分重要的地位。通过使用超声断层扫描，我们可以从含有两相流体的管内获得横切面图像。通过对这些图像的处理，可以分别计算出各相的流量。该方法采用飞行时间超声层析成像技术，不采用传统的图像重建方法。各相的流速直接由灵敏度矩阵求得。该方法不需要流型识别，不需要标定，系统稳定。采用1 MHz的压电片和16 MHz的压电片实现扇形环，采用采样速度为105 MHz、分辨率为14位的四通道AFE板。所有控制信号均由FPGA产生，不需要微处理器来控制过程。采用一种非常简单的功率放大器来驱动压电片，使其具有低功耗和稳定性。实测值的仿真结果表明，SIE因子的误差较小。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2021 Iranian International Conference on Microelectronics (IICM)

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